| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Soon Ho Kim, Hannah Cho. Inhibitory cell type heterogeneity in a spatially structured mean-field model of V1. bioRxiv : the preprint server for biology. 2025-03-31. PMID:40161661. |
although it is known that parvalbumin (pv), somatostatin (sst), and vasoactive intestinal polypeptide-expressing neurons (vip), the major inhibitory neuron subtypes in the cortex, have distinct modulatory effects on excitatory neurons, how heterogeneous spatial connectivity properties relate to network computations is not well understood. |
2025-03-31 |
2025-04-03 |
Not clear |
| Sema G Quadir, S Danyal Zaidi, Meredith G Cone, Sachin Pate. Alcohol Withdrawal Alters the Inhibitory Landscape of the Prelimbic Cortex in an Interneuron- and Sex-specific Manner. bioRxiv : the preprint server for biology. 2024-11-28. PMID:39605607. |
while previous studies have examined alcohol-related adaptations in prefrontal cortical principal glutamatergic neurons, here we used male and female pv:ai14, som:ai14 and vip:ai14 mice to examine synaptic adaptations in all three major classes of prelimbic cortex interneurons following 72 hour withdrawal from a continuous access to two bottle choice model of etoh drinking in male and female mice. |
2024-11-28 |
2024-11-30 |
mouse |
| Melanie Tobin, Janaki Sheth, Katherine C Wood, Erin K Michel, Maria N Geffe. Distinct inhibitory neurons differently shape neuronal codes for sound intensity in the auditory cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2024-11-08. PMID:39516042. |
we optogenetically stimulated sst or vip neurons while simultaneously measuring the calcium responses of populations of hundreds of neurons in the auditory cortex of male and female awake, head-fixed mice to sounds. |
2024-11-08 |
2024-11-17 |
mouse |
| Amanda R McFarlan, Isabella Gomez, Christina Y C Chou, Adam Alcolado, Rui Ponte Costa, P Jesper Sjöströ. The short-term plasticity of VIP interneurons in motor cortex. Frontiers in synaptic neuroscience. vol 16. 2024-09-14. PMID:39267890. |
the short-term plasticity of vip interneurons in motor cortex. |
2024-09-14 |
2024-09-16 |
mouse |
| Amanda R McFarlan, Isabella Gomez, Christina Y C Chou, Adam Alcolado, Rui Ponte Costa, P Jesper Sjöströ. The short-term plasticity of VIP interneurons in motor cortex. Frontiers in synaptic neuroscience. vol 16. 2024-09-14. PMID:39267890. |
in this study, we therefore characterized the short-term plasticity at inputs and outputs of genetically targeted vip ins in mouse motor cortex. |
2024-09-14 |
2024-09-16 |
mouse |
| Sadaf Teymornejad, Katrina H Worthy, Marcello G P Rosa, Nafiseh Atapou. Giant pyramidal neurons of the primary motor cortex express vasoactive intestinal polypeptide (VIP), a known marker of cortical interneurons. Scientific reports. vol 14. issue 1. 2024-09-10. PMID:39256434. |
no vip staining was observed in smaller layer 5 pyramidal cells present in the primary motor facial representation (cytoarchitectural area 4c), or in the premotor cortex (e.g. |
2024-09-10 |
2024-09-13 |
marmoset |
| Sadaf Teymornejad, Katrina H Worthy, Marcello G P Rosa, Nafiseh Atapou. Giant pyramidal neurons of the primary motor cortex express vasoactive intestinal polypeptide (VIP), a known marker of cortical interneurons. Scientific reports. vol 14. issue 1. 2024-09-10. PMID:39256434. |
our results demonstrate the expression of vip in the largest excitatory neurons of the primate cortex, which may offer new functional insights into the role of vip in the brain, and provide opportunities for genetic manipulation of betz cells. |
2024-09-10 |
2024-09-13 |
marmoset |
| Amanda R McFarlan, Connie Guo, Isabella Gomez, Chaim Weinerman, Tasha A Liang, P Jesper Sjöströ. The spike-timing-dependent plasticity of VIP interneurons in motor cortex. Frontiers in cellular neuroscience. vol 18. 2024-05-06. PMID:38706517. |
the spike-timing-dependent plasticity of vip interneurons in motor cortex. |
2024-05-06 |
2024-05-08 |
Not clear |
| Jinyi Zhao, Ying Yu, Fang Han, Qingyun Wan. Regulating epileptiform discharges by heterogeneous interneurons in thalamocortical model. Chaos (Woodbury, N.Y.). vol 33. issue 8. 2023-08-10. PMID:37561121. |
inhibitory interneurons in the cortex are abundant and have diverse roles, classified as parvalbumin (pv), somatostatin (som), and vasoactive intestinal polypeptide (vip) according to chemically defined categories. |
2023-08-10 |
2023-08-16 |
Not clear |
| Deepa L Ramamurthy, Andrew Chen, Jiayu Zhou, Chanbin Park, Patrick C Huang, Priyanka Bharghavan, Gayathri Krishna, Jinjian Liu, Kayla Casale, Daniel E Feldma. VIP interneurons in sensory cortex encode sensory and action signals but not direct reward signals. Current biology : CB. 2023-07-27. PMID:37499665. |
vip interneurons in sensory cortex encode sensory and action signals but not direct reward signals. |
2023-07-27 |
2023-08-14 |
mouse |
| Deepa L Ramamurthy, Andrew Chen, Jiayu Zhou, Chanbin Park, Patrick C Huang, Priyanka Bharghavan, Gayathri Krishna, Jinjian Liu, Kayla Casale, Daniel E Feldma. VIP interneurons in sensory cortex encode sensory and action signals but not direct reward signals. Current biology : CB. 2023-07-27. PMID:37499665. |
vasoactive intestinal peptide (vip) interneurons in sensory cortex modulate sensory responses based on global exploratory behavior and arousal state, but their function during non-exploratory, goal-directed behavior is not well understood. |
2023-07-27 |
2023-08-14 |
mouse |
| Deepa L Ramamurthy, Andrew Chen, Jiayu Zhou, Chanbin Park, Patrick C Huang, Priyanka Bharghavan, Gayathri Krishna, Jinjian Liu, Kayla Casale, Daniel E Feldma. VIP interneurons in sensory cortex encode sensory and action signals but not direct reward signals. Current biology : CB. 2023-07-27. PMID:37499665. |
using two-photon calcium imaging, we measured Δf/f responses of l2/3 vip neurons in whisker somatosensory cortex (s1) during behavior. |
2023-07-27 |
2023-08-14 |
mouse |
| Madan Ghimire, Rui Cai, Lynne Ling, Kevin A Brownell, Kurt W Wisner, Brandon C Cox, Troy A Hackett, Thomas J Brozoski, Donald M Caspar. Desensitizing nicotinic agents normalize tinnitus-related inhibitory dysfunction in the auditory cortex and ameliorate behavioral evidence of tinnitus. Frontiers in neuroscience. vol 17. 2023-06-12. PMID:37304018. |
the present study used an established condition-suppression noise-exposure rat model of tinnitus to: (1) examine tinnitus-related changes in nachr function of layer 5 pyramidal (pns) and of vasoactive intestinal peptide (vip) neurons in primary auditory cortex (a1) and (2) examine how the partial desensitizing nachr agonists, sazetidine-a and varenicline, can act as potential therapeutic agents in the treatment of tinnitus. |
2023-06-12 |
2023-08-14 |
rat |
| Madan Ghimire, Rui Cai, Lynne Ling, Kevin A Brownell, Troy A Hackett, Daniel A Llano, Donald M Caspar. Increased Pyramidal and VIP Neuronal Excitability in Rat Primary Auditory Cortex Directly Correlates with Tinnitus Behavior. The Journal of physiology. 2023-04-29. PMID:37119035. |
increased pyramidal and vip neuronal excitability in rat primary auditory cortex directly correlates with tinnitus behavior. |
2023-04-29 |
2023-08-14 |
rat |
| Madan Ghimire, Rui Cai, Lynne Ling, Kevin A Brownell, Troy A Hackett, Daniel A Llano, Donald M Caspar. Increased Pyramidal and VIP Neuronal Excitability in Rat Primary Auditory Cortex Directly Correlates with Tinnitus Behavior. The Journal of physiology. 2023-04-29. PMID:37119035. |
using a well-established condition-suppression model of tinnitus, we measured tinnitus-related changes in the microcircuits of excitatory/inhibitory neurons onto layer 5 pyramidal neurons (pns), as well as changes in the excitability of vasoactive intestinal peptide (vip) neurons in primary auditory cortex (a1). |
2023-04-29 |
2023-08-14 |
rat |
| Fu Zeng, Adam Zaidel, Aihua Che. Contrary neuronal recalibration in different multisensory cortical areas. eLife. vol 12. 2023-03-06. PMID:36877555. |
here, we recorded single-neuron activity from the dorsal medial superior temporal (mstd), parietoinsular vestibular cortex (pivc), and ventral intraparietal (vip) areas in three male rhesus macaques during this visual-vestibular recalibration. |
2023-03-06 |
2023-08-14 |
Not clear |
| Zoltán Szadai, Hyun-Jae Pi, Quentin Chevy, Katalin Ócsai, Dinu F Albeanu, Balázs Chiovini, Gergely Szalay, Gergely Katona, Adam Kepecs, Balázs Rózs. Cortex-wide response mode of VIP-expressing inhibitory neurons by reward and punishment. eLife. vol 11. 2022-11-23. PMID:36416886. |
previously, we identified a cortical neuron type, vasoactive intestinal polypeptide (vip)-expressing interneurons, in auditory cortex that is recruited by behavioral reinforcers and mediates disinhibitory control by inhibiting other inhibitory neurons. |
2022-11-23 |
2023-08-14 |
mouse |
| Zoltán Szadai, Hyun-Jae Pi, Quentin Chevy, Katalin Ócsai, Dinu F Albeanu, Balázs Chiovini, Gergely Szalay, Gergely Katona, Adam Kepecs, Balázs Rózs. Cortex-wide response mode of VIP-expressing inhibitory neurons by reward and punishment. eLife. vol 11. 2022-11-23. PMID:36416886. |
as the same disinhibitory cortical circuit is present virtually throughout cortex, we wondered whether vip neurons are likewise recruited by reinforcers throughout cortex. |
2022-11-23 |
2023-08-14 |
mouse |
| Julia Veit, Gregory Handy, Daniel P Mossing, Brent Doiron, Hillel Adesni. Cortical VIP neurons locally control the gain but globally control the coherence of gamma band rhythms. Neuron. 2022-11-17. PMID:36384143. |
combining electrophysiology, optogenetics, and computational modeling, we found that vip disinhibitory interneurons in mouse cortex linearly scale gamma power locally without changing its stimulus tuning. |
2022-11-17 |
2023-08-14 |
mouse |
| Miao Ren, Jiaojiao Tian, Qingtao Sun, Siqi Chen, Ting Luo, Xueyan Jia, Tao Jiang, Qingming Luo, Hui Gong, Xiangning L. Plastic embedding for precise imaging of large-scale biological tissues labeled with multiple fluorescent dyes and proteins. Biomedical optics express. vol 12. issue 11. 2021-12-04. PMID:34858677. |
these results demonstrated that vip neurons and blood vessels have their own unique distribution patterns and morphological characteristics among cortical regions and different layers in cerebral cortex, and there was no significant correlation between vip neurons and vessels. |
2021-12-04 |
2023-08-13 |
mouse |